The development and application of automated gridding for efficient screening of yeast and bacterial ordered libraries

Characterization of four dispersed repetitive DNA sequences from Zea mays and their use in constructing contiguous DNA fragments using YAC clones

We have isolated four repetitive DNA fragments from maize DNA. Only one of these sequences showed homology to sequences within the EMBL database, despite each having an estimated copy number of between 3 x 104 and 5 x 104 per haploid genome. Hybridization of the four repeats to maize mitotic chromosomes showed that the sequences are evenly dispersed throughout most, but not all, of the maize genome, whereas hybridization to yeast colonies containing random maize DNA fragments inserted into yeast artificial chromosomes (YACs) indicated that there was considerable clustering of the repeats at a local level. We have exploited the distribution of the repeats to produce repetitive sequence fingerprints of individual YAC clones. These fingerprints not only provide information about the occurrence and organization of the repetitive sequences within the maize genome, but they can also be used to determine the organization of overlapping maize YAC clones within a contiguous fragment (contigs). Key words : maize, repetitive DNA, YACs.

The homeobox gene MEIS1 is amplified in IMR-32 and highly expressed in other neuroblastoma cell lines

Neuroblastoma is a childhood tumour of the sympathetic nervous system that demonstrates striking clinical heterogeneity. In order to determine which genes are abnormally expressed in neuroblastoma, we screened regions of amplification from the short arm of chromosome 2 in the neuroblastoma cell line IMR-32 and found that the homeobox gene, myeloid ecotropic integration site 1 (MEIS1), is highly amplified. MEIS1 normally maps to chromosome band 2p14. High expression of MEIS1 without amplification was also found in other neuroblastoma cell lines, with and without MYCN amplification, and in medulloblastoma and crythroleukaemia cell lines. MEIS1 is highly expressed in cerebellum and ubiquitously expressed in normal immunohaematopoietic tissues and is thought to be important in cell proliferation and differentiation. While several lines of evidence point towards a role for homeobox genes in the development of other malignancies, this is the first report showing the amplification of a homeobox gene in neuroblastoma.

Chromosome 20 deletions in myeloid malignancies: reduction of the common deleted region, generation of a PAC/BAC contig and identification of candidate genes. UK Cancer Cytogenetics Group (UKCCG)

Deletion of the long arm of chromosome 20 represents the most common chromosomal abnormality associated with the myeloproliferative disorders (MPDs) and is also found in other myeloid malignancies including myelodysplastic syndromes (MDS) and acute myeloid leukaemia (AML). Previous studies have identified a common deleted region (CDR) spanning approximately 8 Mb. We have now used G-banding, FISH or microsatellite PCR to analyse 113 patients with a 20q deletion associated with a myeloid malignancy. Our results define a new MPD CDR of 2.7 Mb, an MDS/AML CDR of 2.6 Mb and a combined 'myeloid' CDR of 1.7 Mb. We have also constructed the most detailed physical map of this region to date--a bacterial clone map spanning 5 Mb of the chromosome which contains 456 bacterial clones and 202 DNA markers. Fifty-one expressed sequences were localized within this contig of which 37 lie within the MPD CDR and 20 within the MDS/AML CDR. Of the 16 expressed sequences (six genes and 10 unique ESTs) within the 'myeloid' CDR, five were expressed in both normal bone marrow and purified CD34 positive cells. These data identify a set of genes which are both positional and expression candidates for the target gene(s) on 20q.

The human family of Deafness/Dystonia peptide (DDP) related mitochondrial import proteins

The gene responsible for the human genetic neurodegenerative disorder DFN-1/MTS encodes a small protein known as deafness/dystonia peptide (DDP). It bears a strong resemblance to a recently characterized set of zinc-binding yeast proteins (Tim8p, Tim9p, Tim10p, Tim12p, and Tim13p) that are implicated in the import of a class of transmembrane carrier proteins from the cytoplasm to the mitochondrial inner membrane. We describe here the human complement of DDP/Tim-like proteins and establish the likely orthologous relationships between sequences from human, yeast, and other organisms. We also describe the expression patterns and chromosomal locations of their genes, which are candidate loci for autosomal recessive neurodegenerative disorders.

High-Resolution Landmark Framework for the Sequence-Ready Mapping of Xq23–q26.1

We have established a landmark framework map over 20–25 Mb of the long arm of the human X chromosome using yeast artificial chromosome (YAC) clones. The map has approximately one landmark per 45 kb of DNA and stretches from DXS7531 in proximal Xq23 to DXS895 in proximal Xq26, connecting to published framework maps on its proximal and distal sides. There are three gaps in the framework map resulting from the failure to obtain clone coverage from the YAC resources available. Estimates of the maximum sizes of these gaps have been obtained. The four YAC contigs have been positioned and oriented using somatic-cell hybrids and fluorescence in situ hybridization, and the largest is estimated to cover ∼15 Mb of DNA. The framework map is being used to assemble a sequence-ready map in large-insert bacterial clones, as part of an international effort to complete the sequence of the X chromosome. PAC and BAC contigs currently cover 18 Mb of the region, and from these, 12 Mb of finished sequence is available.

Progress toward positional cloning of ovine neuronal ceroid lipofuscinosis, a model of the human late-infantile variant CLN6

The neuronal ceroid lipofuscinoses (NCLs) are lysosomal storage diseases with severe neurodegenerative pathology. An ovine model (OCL) has well-defined parallels with the human disease at the biochemical and pathological levels. The gene for OCL is located in the chromosomal region OAR7q13-15. This region is syntenic with HAS15q21-23, suggesting that OCL and CLN6 represent mutations in orthologous genes. New microsatellite markers have been developed enabling further refinement of the OCL critical region.

An anchored framework BAC map of mouse chromosome 11 assembled using multiplex oligonucleotide hybridization

Despite abundant library resources for many organisms, physical mapping of these organisms has been seriously limited due to lack of efficient library screening techniques. We have developed a highly efficient strategy for large-scale screening of genomic libraries based on multiplex oligonucleotide hybridization on high-density genomic filters. We have applied this strategy to generate a bacterial artificial chromosome (BAC) anchored map of mouse chromosome 11. Using the MIT mouse SSLP data, 320 pairs of oligonucleotide probes were designed with an "overgo" computer program that selects new primer sequences that avoid the microsatellite repeat. BACs identified by these probes are automatically anchored to the chromosome. Ninety-two percent of the probes identified positive clones from a 5.9-fold coverage mouse BAC library with an average of 7 positive clones per marker. An average of 4.2 clones was confirmed for 204 markers by PCR. Our data show that a large number of clones can be efficiently isolated from a large genomic library using this strategy with minimal effort. This strategy will have wide application for large-scale mapping and sequencing of human and other large genomes.

Ovine neuronal ceroid lipofuscinosis: a large animal model syntenic with the human neuronal ceroid lipofuscinosis variant CLN6

The neuronal ceroid lipofuscinoses (NCLs) are a group of inherited degenerative neurological diseases affecting children. A number of non-allelic variants have been identified within the human population and the genes for some of these have recently been identified. The underlying mechanism for the neuropathology remains an enigma; however, pioneering studies with the naturally occurring ovine model (OCL) have led to the proposal that these diseases represent lesions in specific hydrophobic protein degradation pathways. In this study, we show linkage between OCL and microsatellite markers on OAR 7q13-15. Using interspecies chromosome painting we establish that OAR 7q13-15 is syntenic with human chromosome 15q21-23, the region which was recently defined as the location of a newly identified late infantile variant (CLN6). We propose that our ovine model represents a mutation in the gene orthologous to that mutated in the human late infantile variant CLN6. The ovine linkage flock, consisting of 56 families, represents a powerful resource for positional cloning of this NCL gene. The availability of such a large animal model will have important implications for experimentation in downstream corrective therapies.

Purification of protein phosphatase 4 catalytic subunit: inhibition by the antitumour drug fostriecin and other tumour suppressors and promoters

Protein phosphatase 4 (PP4) is a protein serine/threonine phosphatase that predominantly localises to centrosomes and plays a role in microtubule organisation at centrosomes. Here, PP4 catalytic subunit has been purified from porcine testis to near homogeneity and a specific activity of 680 mU/mg against phosphorylase alpha. The antitumour drug, fostriecin, inhibits PP4 catalytic subunit (IC50 3 nM) with similar potency to PP2A catalytic subunit (IC50 1.5 nM). PP4 is also inhibited in the nanomolar range by several naturally occurring tumour promoters and toxins, with similar IC50 values to those obtained for PP2A. The gene for human PP4 catalytic subunit localises to 16p11.2.

Physical map of human 6p21.2-6p21.3: region flanking the centromeric end of the major histocompatibility complex

We have physically mapped and cloned a 2.5-Mb chromosomal segment flanking the centromeric end of the major histocompatibility complex (MHC). We characterized in detail 27 YACs, 144 cosmids, 51 PACs, and 5 BACs, which will facilitate the complete genomic sequencing of this region of chromosome 6. The contig contains the genes encoding CSBP, p21, HSU09564 serine kinase, ZNF76, TCP-11, RPS10, HMGI(Y), BAK, and the human homolog of Tctex-7 (HSET). The GLO1 gene was mapped further centromeric in the 6p21.2-6p21.1 region toward TCTE-1. The gene order of the GLO1-HMGI(Y) segment in respect to the centromere is similar to the gene order in the mouse t-chromosome distal inversion, indicating that there is conservation in gene content but not gene order between humans and mice in this region. The close linkage of the BAK and CSBP genes to the MHC is of interest because of their possible involvement in autoimmune disease.

A detailed physical and transcriptional map of the region of chromosome 20 that is deleted in myeloproliferative disorders and refinement of the common deleted region

Acquired deletions of the long arm of chromosome 20 are the most common chromosomal abnormality seen in polycythemia vera and are also associated with other myeloid malignancies. Such deletions are believed to mark the site of one or more tumor suppressor genes, loss of which perturbs normal hematopoiesis. A common deleted region (CDR) has previously been identified on 20q. We have now constructed the most detailed physical map of this region to date--a YAC contig that encompasses the entire CDR and spans 23 cM (11 Mb). This contig contains 140 DNA markers and 65 unique expressed sequences. Our data represent a first step toward a complete transcriptional map of the CDR. The high marker density within the physical map permitted two complementary approaches to reducing the size of the CDR. Microsatellite PCR refined the centromeric boundary of the CDR to D20S465 and was used to search for homozygous deletions in 28 patients using 32 markers. No such deletions were detected. Genetic changes on the remaining chromosome 20 may therefore be too small to be detected or may occur in a subpopulation of cells.

A cosmid and cDNA fine physical map of a human chromosome 13q14 region frequently lost in B-cell chronic lymphocytic leukemia and identification of a new putative tumor suppressor gene, Leu5

B-cell chronic lymphocytic leukemia (B-CLL) is a human hematological neoplastic disease often associated with the loss of a chromosome 13 region between RB1 gene and locus D13S25. A new tumor suppressor gene (TSG) may be located in the region. A cosmid contig has been constructed between the loci D13S1168 (WI9598) and D13S25 (H2-42), which corresponds to the minimal region shared by B-CLL associated deletions. The contig includes more than 200 LANL and ICRF cosmid clones covering 620 kb. Three cDNAs likely corresponding to three different genes have been found in the minimally deleted region, sequenced and mapped against the contigged cosmids. cDNA clone 10k4 as well as a chimeric clone 13g3, codes for a zinc-finger domain of the RING type and shares homology to some known genes involved in tumorigenesis (RET finger protein, BRCA1) and embryogenesis (MID1). We have termed the gene corresponding to 10k4/13g3 clones LEU5. This is the first gene with homology to known TSGs which has been found in the region of B-CLL rearrangements.

High-resolution YAC fragmentation map of 1q21

Chromosomal band 1q21 contains a number of genes, constituting the Epidermal differentiation complex (EDC), most of which are involved in the process of terminal differentiation of the human epidermis and implicated in several disorders of keratinization and cancer. The physical map of 1q21 has been refined by generating 400 YAC derivatives. These products have allowed us to localize EDC genes and additional ESTs precisely. The transcriptional map of the region has been extended by positioning 20 ESTs reported to map between D1S442 and D1S305. Eight of the ESTs are localized in two distinct clusters, confirmed by isolating PACs and chromosome 1-specific cosmids. Two of the ESTs correspond to the genes for YL1 and selenium-binding protein, both of which have potential tumor suppressor activity. Through the use of fragmented YACs and bacterial clones, the order of markers and ESTs in the region has been established as follows: cen-A002O32-Bda44g03-Cda10d12-Bdab5d06, H60056, A005K39-D1S442-WI5663-WI7969-Cx40-Cda0g e12-Cda0kh05-A002D26- A008S07-Cda0ff08-D1S498-S100A10-WI7815( THH)-WI7217(FLG)-D1S1664-INV-SPRR2A- LOR-A001X21-D1S305-tel.

Genome encyclopedias and their use for comparative analysis of Rhodobacter capsulatus strains

This paper consists of two components: the use of gene encyclopedias in genomic studies and Rhodobacter capsulatus genome project. A survey of vectors used for encyclopedia construction includes a brief discussion of their relative advantages and limitations. Projects employing various methods of encyclopedia assembly including the comparison of restriction patterns, restriction maps, linking by hybridization, oligonucleotide fingerprinting, sequence tagged site (STS) fingerprinting and encyclopedias derived from genetic maps are listed and briefly described. The R. capsulatus SB 1003 genome project started with the construction of its cosmid encyclopedia, which comprises 192 cosmids covering the chromosome and the 134 kbp plasmid in strain SB 1003, with the exact map coordinates of each cosmid. In a pilot sequencing study, several cosmids were individually subcloned using the vector M13mp18 and merged into one 189 kbp contig. About 160 open reading frames (ORFs) identified by the CodonUse program were subjected to similarity searches. The biological functions of eighty ORFs could be assigned reliably using the WIT (what is there) genome investigation environment. Eighty percent of these recognizable ORFs were organized in functional clusters, which simplified assignment decisions and increased the strength of the predictions. A set of 26 genes for cobalamin biosynthesis, genes for polyhydroxyalkanoic acid metabolism, DNA replication and recombination, and DNA gyrase were among those identified. Recently, another 1.2 Mbp genome fragment of the Rhodobacter genome was sequenced using a slightly modified approach. These results together with some genome investigation tools, have been placed at our web site (http://capsulapedia.uchicago.edu). The sequence of R. capsulatus is expected to be completed by summer 1998. A project to construct a systematic set of deletion strains of R. capsulatus in order to assign functions to unknown ORFs has been started. Preliminary data demonstrate the extreme convenience of the unique gene transfer agent (GTA) system to perform such work.

A physical map of the Leishmania major Friedlin genome

An extensive physical map of the Leishmania major Friedlin genome has been assembled by the combination of fingerprint analysis of a shuttle vector cosmid library and probe hybridization. The integrated data obtained for 9004 fingerprinted clones and 974 probes have placed 91.2% of the 33.58-Mb genome into contigs representing each of the 36 chromosomes. This first-generation map has already provided a suitable framework for both high-throughput DNA sequencing and functional studies of the L. major parasite.

A complete YAC contig and cosmid interval map covering the entirety of human Xq21.33 to Xq22.3 from DXS3 to DXS287

We have produced a physical map that covers the entirety of Xq21.33 to Xq22.3, from DXS3 to DXS287, approximately 15-17 Mb of the proximal long arm of the human X chromosome. This region has already been shown to contain a number of genes involved in genetic disorders, some of which have yet to be cloned. The physical map consists of a contig of 420 yeast artificial chromosome (YAC) clones ordered with respect to 142 DNA markers, approximately one probe every 110 kb. Forty-three YACs from across the contig have been used to isolate 2019 cosmids that have been mapped into 87 intervals, and 667 of these clones are positive for at least 1 single-copy marker. These YACs and cosmids have been used to confirm data from other published contigs that map to the region. The physical map described here constitutes the first step toward a complete transcriptional map of the region.

The organization of the gamma-glutamyl transferase genes and other low copy repeats in human chromosome 22q11

A clone map consisting of YACs, cosmids, and fosmids has been constructed covering low copy repeat regions of human chromosome 22q11. A combination of clone restriction digest analysis, single-copy landmark content analysis, HindIII-Sau3AI fingerprinting, and sequencing of PCR products derived from clones was required to resolve the map in this region. Seven repeat-containing contigs were placed in 22q11, five containing gamma-glutamyl transferase (GGT) sequences described previously. In one case, a single interval at the resolution of the YAC map was shown to contain at least three GGT sequences after higher resolution mapping. The sequence information was used to design a rapid PCR/restriction digest technique that distinguishes the GGT loci placed in the YAC map. This approach has allowed us to resolve the previous cDNA and mapping information relating to GGT and link it to the physical map of 22q11.

Parasite genome analysis. A global map of the Leishmania major genome: prelude to genomic sequencing

In 1994, the World Health Organization (TDR) launched a new strategic initiative in parasite genome analysis, establishing international genome networks for filariae, Schistosoma, Leishmania, Trypanosoma brucei and T. cruzi. For Leishmania, a number of different but complementary approaches have been adopted by members of the Leishmania Genome Network. Our laboratory has been using cosmid clone fingerprinting to produce a physical map of the genome. Progress towards the completion of an integrated physical and biological map of L. major, and the preparations for genomic sequencing, are described.

Framework YAC contig anchored into a 3.2-Mb high-resolution physical map in proximal 11q13

Despite the presence on band q13 of chromosome 11 of a number of genes predisposing individuals to various human diseases, most of this genomic region remains loosely mapped. Moreover, there is a relative dearth of yeast artificial chromosome (YAC) contigs from genome-wide studies: YACs are irregularly distributed over this chromosomal region and have not been arranged into contigs. We have thus undertaken fine-scale mapping of a 3.2-Mb region flanked by ACTN3 and FGF3. Since this region has demonstrated a high degree of YAC instability, we have established a framework contig by anchoring YACs and cosmids into a high-resolution physical map based on fluorescence in situ hybridization and long-range restriction mapping. The 3.2-Mb area studied includes the boundaries of regions thought to contain genes predisposing individuals to osteoporosis-pseudoglioma syndrome and insulin-dependent diabetes mellitus, as well as genes driving amplification events in human carcinomas. Another feature of this genomic area is that it cross-hybridizes to nonsyntenic regions of the genome. In addition, it spans the region where syntenic conservation with mouse chromosome 19 ends, making clones that we have anchored there valuable tools in understanding genome evolution.

An integrated genetic and physical map of the bovine X chromosome

Genotypic data for 56 microsatellites (ms) generated from maternal full sib families nested within paternal half sib pedigrees were used to construct a linkage map of the bovine X Chromosome (Chr) (BTX) that spans 150 cM (ave. interval 2.7 cM). The linkage map contains 36 previously unlinked ms; seven generated from a BTXp library. Genotypic data from these 36 ms was merged into an existing linkage map to more than double the number of informative BTX markers. A male specific linkage map of the pseudoautosomal region was also constructed from five ms at the distal end of BTXq. Four informative probes physically assigned by fluorescence in situ hybridization defined the extent of coverage, confirmed the position of the pseudoautosomal region on the q-arm, and identified a 4.1-cM marker interval containing the centromere of BTX.

Chromosomal localisation of genes coding for human and mouse liver cytosolic cysteine dioxygenase

A panel of 22 hybrids was tested for the presence of the gene coding for human cysteine dioxygenase (CDO) by using human specific oligonucleotide primers in the polymerase chain reaction. Detection of human CDO completely correlated with the presence of human chromosome 5. A human total genome cosmid library was screened with a PCR product from the coding region of human CDO cDNA and the two positive clones identified were used in fluorescent in situ hybridisation (FISH) analysis on metaphase chromosome spreads. Fluorescent signals were seen on chromosome 5q22-23. Interspecific backcross mapping in the mouse indicated that Cdo, the mouse homologue of CDO, is situated in the central region of mouse chromosome 18 which shares a region of homology with human chromosome 5.

An integrated map of human chromosome 6p23

The human chromosomal band 6p23 is a Giemsa-negative (light) band that may be expected to be relatively gene rich. The genes for spinocerebellar ataxia type 1 (SCA1), guanosine monophosphate reductase (GMPR), DEK involved in a subtype of acute myeloid leukemia (AML), and the folate-sensitive fragile site FRA6A, have already been mapped to 6p23. Recent linkage data have suggested evidence for a susceptibility locus for schizophrenia in the region. We have constructed a single YAC contig of approximately 100 clones spanning the entire 6p23 band from 6p22.3 to 6p24.1 and covering 7.5-8.5 Mb of DNA. The YAC contig contains 55 markers including genetically mapped STSs, physically mapped STSs, anonymous STSs, anonymous ESTs, and ESTs from the genes mapped to the region. The order of the genetically mapped STSs is consistent with their order in the contig and some of the markers not resolved on the genetic map have been resolved by the YACs. Four of the YACs from 6p23 and covering approximately 3 Mb of DNA have been used to isolate approximately 300 cosmids from a flow-sorted human chromosome 6 cosmid library, which have been organized into pockets. The proposed susceptibility locus for schizophrenia is most closely linked to D6S260, which is located within the YAC contig along with genetic markers < or = 5 cM on either side. Therefore, the presented materials are valuable reagents for characterization of the genomic region implicated in schizophrenia.

Identification, characterization, and localization to chromosome 17q21-22 of the human TBX2 homolog, member of a conserved developmental gene family

The T-box motif is present in a family of genes whose structural features and expression patterns support their involvement in developmental gene regulation. Previously, sequence comparisons among the T-box domains of ten vertebrate and invertebrate T-box (Tbx) genes established a phylogenetic tree with three major branches. The Tbx2-related branch includes mouse Mm-Tbx2 and Mm-Tbx3, Drosophila optomotor-blind (Dm-Omb), and Caenorhabditis elegans Ce-Tbx2 and Ce-Tbx2 and Ce-Tbx7 genes. From the localization of Mm-Tbx2 to Chromosome (Chr) 11, we focused our search for the human homolog, Hs-TBX2, within a region of synteny conservation on Chr 17q. We used Dm-Omb polymerase chain reaction (PCR) primers to amplify a 137-basepair(bp)_ product from human genomic, Chr 17 monochromosome hybrid, and fetal kidney cDNA templates. The human PCR product showed 89% DNA sequence identity and 100% peptide sequence identity to the corresponding T-box segment of Mm-Tbx2. The putative Hs-TBX2 locus was isolated within a YAC contig that included three anonymous markers, D17S792, and D17S948, located at Chr 17q21-22. Hybridization-and PCR-based screening of a 15-week fetal kidney cDNA library yielded several TBX2 clones. Sequence analysis of clone lambda omicron TBX2-1 confirmed homology to Mm-TBx2-90% DNA sequence identity over 283 nt, and 96% peptide sequence identity over 94 amino acids. Similar analysis of Hs-TBX2 cosmid 154F11 confirmed the cDNA coding sequence and also identified a 1.7-kb intron located at the same relative position as in Mm-Tbx2. Phylogenetic analyses of the T-box domain sequences found in several vertebrate and invertebrate species further suggested that the putative human TBX2 and mouse Tbx2 are true homologs. Northern blot analysis identified two major TBX2 expression fetal kidney and lung; and in adult kidney, lung, ovary, prostate, spleen, and testis. Reduced expression levels were seen in heart, white blood cells, small intestine, and thymus. These results suggest that Hs-TBX2 could play important roles in both developmental and postnatal gene regulation.

Characterization of a human chromosome 22 enriched bacterial artificial chromosome sublibrary

Selection of chromosomal sublibraries from total human genomic libraries is critical for chromosome-based physical mapping approaches. We have previously reported a method of screening total human genomic library using flow sorted chromosomal DNA as a hybridization probe and selection of a human chromosome 22-enriched sublibrary from a total human bacterial artificial chromosome (BAC) library (Nucleic Acids Res 1995; 23: 1838-39). We describe here further details of the method of construction as well as characterization of the chromosome 22-enriched sublibrary thus constructed. Nearly 40% of the BAC clones that have been mapped by fluorescence in situ hybridization (FISH) analysis were localized to chromosome 22. By screening the sublibrary using chromosome 22-specific hybridization probes, we estimated that the sublibrary represents at least 2.5 x coverage of chromosome 22. This is in good agreement with the results from FISH mapping experiments. FISH map data also indicate that chromosome 22-specific BACs in the sublibrary represent all the subregions of chromosome 22.

Mapping human chromosomes

The construction of integrated maps at all levels of resolution will facilitate determination of the DNA sequence and, ultimately, the entire gene content of the human genome. In the past two years, the need for extensive frameworks on which to anchor the maps of the human chromosomes has been emphasized. The first framework has been provided following construction of the genetic map using microsatellite markers. This is now being united with extensive collections of expressed sequence tags and other landmarks using radiation hybrid mapping into higher resolution map. Rapid progress is also being made towards integrating these reagents through the construction of physical clone maps using yeast artificial chromosomes which provide near-complete cloned coverage of human chromosomes.

Integrative modification of YAC clones in a 96-well microplate format

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A human chromosome 7 yeast artificial chromosome (YAC) resource: construction, characterization, and screening

The paradigm of sequence-tagged site (STS)-content mapping involves the systematic assignment of STSs to individual cloned DNA segments. To date, yeast artificial chromosomes (YACs) represent the most commonly employed cloning system for constructing STS maps of large genomic intervals, such as whole human chromosomes. For developing a complete YAC-based STS-content map of human chromosome 7, we wished to utilize a limited set of YAC clones that were highly enriched for chromosome 7 DNA. Toward that end, we have assembled a human chromosome 7 YAC resource that consists of three major components: (1) a newly constructed library derived from a human-hamster hybrid cell line containing chromosome 7 as its only human DNA; (2) a chromosome 7-enriched sublibrary derived from the CEPH mega-YAC collection by Alu-polymerase chain reaction (Alu-PCR)-based hybridization; and (3) a set of YACs isolated from several total genomic libraries by screening for > 125 chromosome 7 STSs. In particular, the hybrid cell line-derived YACs, which comprise the majority of the clones in the resource, have a relatively low chimera frequency (10-20%) based on mapping isolated insert ends to panels of human-hamster hybrid cell lines and analyzing individual clones by fluorescence in situ hybridization. An efficient strategy for polymerase chain reaction (PCR)-based screening of this YAC resource, which totals 4190 clones, has been developed and utilized to identify corresponding YACs for > 600 STSs. The results of this initial screening effort indicate that the human chromosome 7 YAC resource provides an average of 6.9 positive clones per STS, a level of redundancy that should support the assembly of large YAC contigs and the construction of a high-resolution STS-content map of the chromosome.

Human artificial episomal chromosomes for cloning large DNA fragments in human cells

We have developed a human artificial episomal chromosome (HAEC) system, based on the latent replication origin of the large herpes Epstein-Barr virus, for the propagation and stable maintenance of DNA as circular minichromosomes in human cells. Individual HAECs carried human genomic inserts ranging from 60-330 kb and appeared genetically stable. An HAEC library of 1,500 independent clones carrying random human genomic fragments with average sizes of 150-200 kb was established and allowed recovery of the HAEC DNA. Our autologous HAEC system, with human DNA cloned directly in human cells, provides an important tool for functional study of large mammalian DNA regions and gene therapy.

Yeast artificial chromosome cloning

Yeast artificial chromosome (YAC) cloning systems enable the cloning of DNA stretches of 50 to well over 2000 kb. This makes it possible to study large intact regions of DNA in detail, by restriction mapping the YAC to produce a physical map and by examining the YAC for coding sequences or genes. YACs are important for their ability to clone the complete sequences of large genes or gene complexes that exceed the size limit for cloning in conventional bacterial cloning vectors like plasmids (up to 10 kb), bacteriophage (15 kb), and cosmids (50 kb). A major advantage of cloning in yeast, a eukaryote, is that many sequences that are unstable, underrepresented, or absent when cloned into prokaryotic systems, remain stable and intact in YAC clones. It is possible to reintroduce YACs intact into mammalian cells where the introduced mammalian genes are expressed and used to study the functions of genes in the context of flanking sequences. The correct protein processing mechanisms are present in the mammalian cells to ensure that a viable protein product is produced.

Identification of human chromosome region 3p14.2-21.3-specific YAC clones using Alu-PCR products from a radiation hybrid

Deletion of DNA sequences from at least three different regions on the short arm of human chromosome 3 (3p13-14, 3p21 and 3p25) are frequently observed during the development of many solid tumors, including lung cancers and renal cell carcinomas. In order to physically characterize the 3p21 region, we previously identified a radiation fusion hybrid that contained about 20 megabases of DNA from chromosome region 3p14.2-p21.3. In this study total Alu-PCR products from this hybrid were used as a probe to isolate 86 yeast artificial chromosomes (YAC) clones from a 620-kb average insert YAC library (ICRF). Sixty-nine Alu-PCR markers, generated from the YACs, and seven PCR primers were used to screen for overlaps between individual clones. Seven contigs were identified encompassing 32 YAC clones. Based on previous information about localization of the PCR primers, the three largest contigs could be assigned to smaller subregions between 3p14.2 and 3p21.3. By this work a large proportion of the 3p14.2-21.3 region is covered with large-insert YAC clones.

Physical mapping shows close linkage between the alpha-galactosidase A gene (GLA) and the DXS178 locus

X-linked agammaglobulinaemia (XLA) is an inherited disorder characterised by a lack of circulating B-cells and antibodies. While the gene involved in XLA has not yet been identified, the locus for the disorder is tightly linked to the polymorphic marker DXS178, which maps to Xq22. Fabry disease is an X-linked recessive disorder caused by a deficiency in the lysosomal enzyme alpha-galactosidase A. The gene encoding this enzyme has been characterized and also maps to Xq22. Using pulsed field gel electrophoresis we have constructed a long-range restriction map that shows that the alpha-galactosidase A gene (GLA) and DXS178 lie no more than 140 kb apart on a stretch of DNA containing a number of putative CpG islands. We have also isolated yeast artificial chromosome (YAC) clones that confirm this physical linkage. The localisation of DXS178 near the alpha-galactosidase A gene will facilitate carrier detection in Fabry families using restriction fragment length polymorphism (RFLP) analysis. The identification of a number of CpG islands near DXS178 also provides candidate locations for the gene responsible for XLA.

A simple and efficient method for constructing high resolution physical maps

This paper describes a simple and efficient walking method for constructing high resolution physical maps and discusses its applications to genome analysis. The method is an integration of three strategies: (1) use of a highly redundant library of 3Kb-long subclones; (2) construction of a multidimensional pool from the library; (3) direct application of a PCR (polymerase chain reaction)-based screening technique to the pooled library, with two PCR primers, one from the end of the subcloning vector and the other from the leading edge of the walk. This technique allows not only detection of each overlapping subclone but simultaneous determination of its orientation and the size of its overlap. The end of the subclone with the smallest overlap is sequenced and a primer is designed for the next step in the walk. Iteration of the screening procedure with minimum overlapping subclones results in completion of the high resolution map. Using this method, a 3Kb-resolution map was constructed from an 80Kb region of the bithorax complex of Drosophila melanogaster. The method is general enough to be applicable to DNA from other species, and simple enough to be automated.

A human genome YAC library in a selectable high-copy-number vector

An experimental yeast artificial chromosome (YAC) library consisting of one genome equivalent of human DNA was prepared in a selectable high-copy-number (hcn) YAC vector. Screening for unique loci was accomplished by PCR of successively smaller DNA pools and by hybridization to high-density microcolony blots. Inserts averaged 200 kb in size, but several YACs with inserts averaging about 650 kb were obtained when polyamines were added prior to yeast transformation. YACs were identified for 17 out of 29 sequence-tagged sites (STS) screened by a PCR-based approach. All YACs in the size range of 100-600 kb that were examined could be obtained at significantly elevated copy numbers following growth of the clones in methotrexate/sulfanilamide/thymidine-supplemented medium. The hcn YACs could also be selected during growth in microtiter dishes, and the resulting clones were used to prepare high-density microcolony DNA blots for hybridization with radiolabeled PCR products. DNA pools for the PCR-based screening of this experimental library are available to investigators interested in applications of hcn YACs.

The gene involved in X-linked agammaglobulinaemia is a member of the src family of protein-tyrosine kinases

X-linked agammaglobulinaemia (XLA) is a human immunodeficiency caused by failure of pre-B cells in the bone marrow to develop into circulating mature B cells. A novel gene has been isolated which maps to the XLA locus, is expressed in B cells, and shows mutations in families with the disorder. The gene is a member of the src family of proto-oncogenes which encode protein-tyrosine kinases. This is, to our knowledge, the first evidence that mutations in a src-related gene are involved in human genetic disease.

Identification of region-specific yeast artificial chromosomes using pools of Alu element-mediated polymerase chain reaction probes labeled via linear amplification

The ability to identify large numbers of yeast artificial chromosomes (YACs) specific to any given genomic region rapidly and efficiently enhances both the construction of clone maps and the isolation of region-specific landmarks (e.g., polymorphic markers). We describe a method of preparing region-specific single-stranded hybridization probes from Alu element-mediated polymerase chain reaction (Alu-PCR) products of somatic cell hybrids for YAC library screening. Pools of up to 50 cloned Alu-PCR products from an irradiation-reduced hybrid containing 22q11.2-q13.1 were labeled to high specific activity by linear amplification using a single vector primer. The resulting single-stranded probes were extensively competed to remove repetitive sequences, while retaining the full complexity of the probe. Extensive coverage of the region by YACs using multiple probe pools was demonstrated as many YACs were detected more than once. In situ analysis using chosen YACs confirmed that the clones were specific for the region. Thus, this pooled probe approach constitutes a rapid method to identify large numbers of YACs relevant to a large chromosomal region.

Construction of a yeast artificial chromosome contig encompassing the human alpha 5(IV) collagen gene (COL4A5)

A PCR-based screening approach was used to isolate six yeast artificial chromosome (YAC) clones containing segments of the human alpha 5(IV) collagen gene (COL4A5). This gene is located at Xq22 and is known to be involved in the kidney disorder known as Alport syndrome (AS). By analyzing sequence-tagged sites, cDNA content, and rare-cutting restriction site patterns in these YAC clones, a contig that spans the entirety of the alpha 5(IV) gene was constructed. This contig may contain as much as 690 kb of DNA from the alpha 5(IV) locus. On the basis of the information obtained from these YAC clones, the genomic map and gene structure of the alpha 5(IV) gene have been refined. This study has also provided a valuable resource for subsequent studies of the alpha 5(IV) gene and its flanking DNA sequences.

A random STS strategy for construction of YAC contigs spanning defined chromosomal regions

Sequence tagged sites (STSs) that were generated via Alu-element-mediated polymerase chain reaction (Alu-PCR) and mapped to human Xq26 were used to isolate and overlap yeast artificial chromosomes (YACs). By collating the results of primary pool screening, the order of STSs and YACs was postulated directly. Subsequent isolation of 11 key YACs from 75 positive pools confirmed the proposed contig. Although only a small subset of the available Alu-PCR fragments was used, the STSs were generated at sufficient density to isolate all the YACs required and to identify all except one overlap directly. The results confirmed physical linkage of HPRT to DXS86 and DXS144E. Long-range continuity was determined purely by analysis of the 11 YAC colonies and required no end-rescue. This strategy is therefore an effective approach for the construction of YAC contigs spanning discrete chromosomal regions contained within somatic cell hybrids, with minimal prior knowledge of the region.

Integration of image analysis and robotics into a fully automated colony picking and plate handling system

We describe here the integration of image analysis and robotics to produce a fully automated colony picking/plate handling system. Biological tests were performed to verify its performance in terms of sterilisation and accuracy of picking. The machine was then used by a single operative to pick a 36,000 clone cDNA library in approximately 42 hrs over 5 days.